B. Tislerova

Effect of Low-Frequency rTMS on Electromagnetic Tomography (LORETA) and Regional Brain Metabolism (PET) in Schizophrenia Patients with Auditory Hallucinations

Background: Auditory hallucinations are characteristic symptoms of schizophrenia with high clinical importance. It was repeatedly reported that low frequency (≤1Hz) repetitive transcranial magnetic stimulation (rTMS) diminishes treatment-resistant auditory hallucinations. A neuroimaging study elucidating the effect of rTMS in auditory hallucinations has yet to be published. Objective: To evaluate the distribution of neuronal electrical activity and the brain metabolism changes after low-frequency rTMS in patients with auditory hallucinations. Methods: Low-frequency rTMS (0.9 Hz, 100% of motor threshold, 20 min) applied to the left temporoparietal cortex was used for 10 days in the treatment of medication-resistant auditory hallucinations in schizophrenia (n = 12). The effect of rTMS on the low-resolution brain electromagnetic tomography (LORETA) and brain metabolism (18FDG PET) was measured before and after 2 weeks of treatment. Results: We found a significant improvement in the total and positive symptoms (PANSS), and on the hallucination scales (HCS, AHRS). The rTMS decreased the brain metabolism in the left superior temporal gyrus and in interconnected regions, and effected increases in the contralateral cortex and in the frontal lobes. We detected a decrease in current densities (LORETA) for the beta-1 and beta-3 bands in the left temporal lobe whereas an increase was found for beta-2 band contralaterally. Conclusion: Our findings implicate that the effect is connected with decreased metabolism in the cortex underlying the rTMS site, while facilitation of metabolism is propagated by transcallosal and intrahemispheric connections. The LORETA indicates that the neuroplastic changes affect the functional laterality and provide the substrate for a metabolic effect.

Electroencephalographic Spectral and Coherence Analysis of Ketamine in Rats: Correlation with Behavioral Effects and Pharmacokinetics

Aims: This study was designed to evaluate the changes in EEG power spectra and EEG coherence in a ketamine model of psychosis in rats. Analyses of behavioral measurements – locomotion and sensorimotor gating – and the pharmacokinetics of ketamine and norketamine were also conducted. Methods: Ketamine and norketamine levels in rat sera and brains were analyzed by gas chromatography-mass spectrometry after ketamine 30 mg/kg (i.p.). Ketamine 9 and 30 mg/kg (i.p.) were used in the behavioral and EEG experiments. Locomotor effects in an open field test and deficits in prepulse inhibition of acoustic startle reaction (PPI ASR) were evaluated in the behavioral experiments. EEG signals were simultaneously recorded from 12 implanted active electrodes; subsequently, an EEG power spectral and coherence analysis was performed. Results: Ketamine had a rapid penetration into the brain; the peak concentrations of the drug were reached within 15 min after administration. Ketamine induced marked hyperlocomotion and deficits in the PPI ASR. EEG spectral analysis mainly showed increases in EEG power as well as coherence. These were most robust at 10–15 min after the administration and influenced all parts of the spectrum with ketamine 30 mg/kg. Conclusions: Ketamine at behaviorally active doses induces a robust increase in EEG power spectra and coherence. The maximum levels of change correlated with the kinetics of ketamine.

Subanesthetic dose of ketamine decreases prefrontal theta cordance in healthy volunteers: implications for antidepressant effect

BACKGROUND Theta cordance is a novel quantitative electroencephalography (QEEG) measure that correlates with cerebral perfusion. A series of clinical studies has demonstrated that the prefrontal theta cordance value decreases after 1 week of treatment in responders to antidepressants and that this effect precedes clinical improvement. Ketamine, a non-competitive antagonist of N-methyl-D-aspartate (NMDA) receptors, has a unique rapid antidepressant effect but its influence on theta cordance is unknown. METHOD In a double-blind, cross-over, placebo-controlled experiment we studied the acute effect of ketamine (0.54 mg/kg within 30 min) on theta cordance in a group of 20 healthy volunteers. RESULTS Ketamine infusion induced a decrease in prefrontal theta cordance and an increase in the central region theta cordance after 10 and 30 min. The change in prefrontal theta cordance correlated with ketamine and norketamine blood levels after 10 min of ketamine infusion. CONCLUSIONS Our data indicate that ketamine infusion immediately induces changes similar to those that monoamineric-based antidepressants induce gradually. The reduction in theta cordance could be a marker and a predictor of the fast-acting antidepressant effect of ketamine, a hypothesis that could be tested in depressive patients treated with ketamine.

LORETA functional imaging in antipsychotic-naive and olanzapine-, clozapine- and risperidone-treated patients with schizophrenia.

The aim of our study was to detect changes in the distribution of electrical brain activity in schizophrenic patients who were antipsychotic naive and those who received treatment with clozapine, olanzapine or risperidone. We included 41 subjects with schizophrenia (antipsychotic naive = 11; clozapine = 8; olanzapine = 10; risperidone = 12) and 20 healthy controls. Low-resolution brain electromagnetic tomography was computed from 19-channel electroencephalography for the frequency bands delta, theta, alpha-1, alpha-2, beta-1, beta-2 and beta-3. We compared antipsychotic-naive subjects with healthy controls and medicated patients. (1) Comparing antipsychotic-naive subjects and controls we found a general increase in the slow delta and theta frequencies over the fronto-temporo-occipital cortex, particularly in the temporolimbic structures, an increase in alpha-1 and alpha-2 in the temporal cortex and an increase in beta-1 and beta-2 in the temporo-occipital and posterior limbic structures. (2) Comparing patients who received clozapine and those who were antipsychotic naive, we found an increase in delta and theta frequencies in the anterior cingulate and medial frontal cortex, and a decrease in alpha-1 and beta-2 in the occipital structures. (3) Comparing patients taking olanzapine with those who were antipsychotic naive, there was an increase in theta frequencies in the anterior cingulum, a decrease in alpha-1, beta-2 and beta-3 in the occipital cortex and posterior limbic structures, and a decrease in beta-3 in the frontotemporal cortex and anterior cingulum. (4) In patients taking risperidone, we found no significant changes from those who were antipsychotic naive. Our results in antipsychotic-naive patients are in agreement with existing functional findings. Changes in those taking clozapine and olanzapine versus those who were antipsychotic naive suggest a compensatory mechanism in the neurobiological substrate for schizophrenia. The lack of difference in risperidone patients versus antipsychotic-naive subjects may relate to risperidone’s different pharmacodynamic mechanism.

Contents Vol. 63, 2011

A. Drago, Naples G. Erdmann, Berlin A. Fischer, Göttingen J.M. Ford, San Francisco, Calif. S. Galderisi, Naples M. Hatzinger, Solothurn U. Hegerl, Leipzig K. Hirata, Mibu M. Kato, Osaka J. Kornhuber, Erlangen D. Lehmann, Zürich P. Monteleone, Naples G. Okugawa, Osaka G.N. Papadimitriou, Athens M. Popoli, Milano M. Reuter, Bonn F. Rösler, Marburg G. Ruigt, Oss J.K. Rybakowski, Poznan F. Schneider, Aachen R. Schwarting, Marburg M. Shigeta, Tokyo D. Souery, Brussels A. Steiger, Munich P. Willner, Swansea Associate Editors

P01-162 Influence of subanesthetic dose of ketamine on theta cordance in healthy volunteers: Implications for antidepressant effect

Aims A series of clinical studies demonstrated that QEEG prefrontal theta cordance value decreases after one week of treatment in responders to antidepressants and precedes clinical improvement. Ketamine, a non-competitive antagonist of NMDA receptors, has a unique rapid antidepressant effect but its influence on theta cordance is still unknown. Methods In a double-blind, cross-over, placebo-controlled experiment we studied the influence of ketamine (0.54 mg/kg) on theta cordance in a group of 20 right-handed healthy volunteers. Participants were evaluated with the Brief Psychiatric Rating Scale before infusion and after 10 and 30 min. Three EEG segments obtained at baseline and prior to BPRS examinations at 10 and 30 min after dosing were entered into spectral analyses and QEEG cordance values in theta frequency band were calculated for four regions (prefrontal, central, left and right temporal). Results Ketamine infusion induced a decrease in prefrontal theta cordance at 10 (p=0.04) and 30 min (p=0.02) and a significant increase of theta cordance in central region at both time points (p=0.01). We observed no significant effect on cordance values in the left and right temporal regions. Conclusions Our data indicate that ketamine infusion immediately induces similar changes as monoaminergic-based antidepressants do gradually after a series of downstream signaling steps. The reduction in theta prefrontal cordance could serve as a marker of fast antidepressant effect of ketamine, a hypothesis that should be tested in antidepressants-refractory patients. This study was supported by a grant of IGA MHCR NR/9330-3 and by a project of MEYS CR VZ0021620816.

The effect of repetitive transcranial magnetic stimulation on symptoms in obsessive compulsive disorder

BACKGROUND Within a decade, the Repetitive Transcranial Magnetic Stimulation (rTMS) was being used to treat depression and schizophrenia. Antidepressant response has been reported in open and double-blind, sham-controlled studies of depression. Less is known about rTMS efficacy in the obsessive compulsive disorder. The general aim of our study was to evaluate the therapeutic effect of the low frequency rTMS in serotonin reuptake inhibitor (SRI) resistant OCD patients. Zero hypothesis was: lrTMS will have no impact on the symptomatology in the patients with OCD Alternative hypothesis was: rTMS will have significant impact on the symptomatology of OCD comparing with placebo aplication (sham).